Crystal structure of Aquifex aeolicus σN bound to promoter DNA and the structure of σN-holoenzyme

The bacterial sigma factors confer promoter specificity to the RNA polymerase (RNAP). One alternative sigma factor, sigma(N), is unique in its structure and functional mechanism, forming transcriptionally inactive promoter complexes that require activation by specialized AAA(+) ATPases. We report a 3.4- angstrom resolution X-ray crystal structure of a sigma(N) fragment in complex with its cognate promoter DNA, revealing the molecular details of promoter recognition by sigma(N). The structure allowed us to build and refine an improved sigma(N)-holoenzyme model based on previously published 3.8-angstrom resolution X-ray data. The improved sigma(N)-holoenzyme model reveals a conserved interdomain interface within sigma(N) that, when disrupted by mutations, leads to transcription activity without activator intervention (so-called bypass mutants). Thus, the structure and stability of this interdomain interface are crucial for the role of sigma(N) in blocking transcription activity and in maintaining the activator sensitivity of sigma(N).